Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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CIRCUIT BREAKER WITH REPLACEABLE
RATING PLUG INTERLOCK AND PUSH TO TRIP BUTTON
CROSS REFERENCE TO RELATED PATENT
Cross reference îs made to the U.S. Patent of
Alan B. Shrimp, 4,639,701 issued January 27, 1987.
BACKGROUND'OF'THE''INVENTION
S Field of the Invention:
.
This invention pertains to circuit breakers of
the type comprising a latched stored-energy mechanism
releasable to effect tripping and, more particularly, it
pertains to trip means automatically operable in response
to overload conditions to effect release of the releasable
mechanism.
Description'of th'e Prior'Art:
In recent years, some circuit breakers with
electronic trip units have employed replaceable rating plugs
~hich comprise a resistor and an interlock means. The resistor
is used to calibrate the electronic trip circuit. Rating
plugs containing resistors of different values enables a
rating change of the circuit breaker in the field. Interlock
means are used to automatically trip the circuit breaker if
the circuit breaker is closed when the rating plug is removed
and to maintain the circuit breaker in a tripped condition
as long as the rating plug is removed.
Interlock means employed in the past have con-
sisted of a threaded device which when turned a number of
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full 360 rotations pulls against a spring and moves a
lever away from a trip latch so that the circuit breaker
can be reset and closed. Such an interlock requires a
care~ul and precise adjustment at the ~ime of manufacture
to ensure proper operation. Moreover, the user is required
to turn the rating plug screw several full turns before the
breaker can be reset and closed. One prior art circuit
breaker is disclosed in the patent to Alfred E. Maier and
Alan B. Shimp, U.S. Patent No. 3,826,951.
SUMMARY OF THE INVENTION
It has been found in accordance with this inven-
tion that a circuit breaker may be provided which comprises
a circuit breaker structure supported within an electrical-
ly insulating housing which structure includes a pair of
separable contacts operable to open and close an electric
circuit, a releasable mechanism, manually operable means
manually operable when the releasable mechanism is in a
latched position to open and close the contacts, trip means
operable automatically in response to overload current
~0 conditions above a predatermined value to release the
releasable mechanism whereupon the releasable mechanism
a~tomatically moves from the latched position to a tripped
position to open the contacts, the manually operable means
being operable to move the releasable mechanism from the
trip position to the latched position following release of
the releasabl~ mechanism, latch means operable between the
latching and unlatching positions and biased in the former
po3ition to latch the releasable mechanism, the trip means
including an externally accessible replaceable rating
adju3ter removably supported on the housing, interlock
means automatically maintaining the releasable mechanism in
the tripped position when the replaceable rating adjuster
is removed rom the housing, a trip bar extending between
the adjuster and the latch means and bias~d in the
untripped position, the interlock means including a trip
button movable longitudinally to a pro~racted position to
trip the trip bar, the interlock means also including a
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rotatable cam for locking the trip bar in the tripped
position and the rotatable cam including a bore through
which the trip button extends, and the trip button being
rotatable to turn the rotatable cam between tripped and
untripped positions of the trip bar.
BRIEF DESCRIPTION OF THE DRAWINGS
~ igure 1 is a vertical sectional view, with parts
broken away, through the center pole unit of a three-pole
circuit breaker;
10Fig. 2 is a vertical sectional view taken on the
line II-II of Fig. 1;
Fig. 3 is a fragmentary horizontal view taken on
the line III-III of Fig. l;
Fig. 4 is a vertical sectional view taken on the
line IV-IV of Fig. 3;
Figs. 5 and 6 are views similar to Figs. 3 and 4,
respectively, with parts in alternate positions;
Fig. 7 is a sectional view, similar to Figs~ 4
and 6, showing the push button and trip bar in the tripped
positions;
Fiy. 8 is a fragmentary sectional view, taken on
the line VIII-VIII of Fig. 2;
Fig. 9 is a horizontal sectional view taken on
the line IX-IX of Fig. 2;
25Fig. 10 is a view similar to Fig. 9 with parts in
alternate positions; and
Fig. 11 is an end view taken on the line XI-XI in
Fig. 10.
DESCRIPTION OF THE PREFERRED EMBODIMENT
30A three-pole cixcuit breaker, generally indicated
at 3 in Figure 1, comprises an insulating hoùsing 5 includ-
ing a base 7 and a cover 9 which is secured to the base in
a conventional manner such as by screws (not shown).
Although the principal of this invention is applicable to a
single pole circuit breaker, it is usually applicable to a
multi-pole unit for which reason the housing 3 comprises
insulating barriers separating the housing into three
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adjacent ~ide-by-side pole unit compartments in a manner
well known in the art.
Within the housing a circuit breaker mechanism 11
is mounted within the center pole unit of the housing and
comprises a single operating mechanism and a la-tch mecha-
nism 15. The circuit breaker mechanism 11 also comprises a
high speed electromagnetic trip device 17.
Each pole of the circuit breaker includes a pair
o separable contacts l9 and 21, attached to upper and
lower contact arms 20 and 22, respectively. An arc extin-
guishing unit or arc chute 23 is provided in each pole
unit. The upper contact 1~ is electrically connected,
through the upper contact arm 20 (constructed of conducting
material), to a shunt 24 which is connected through a
lS conducting strip 25 and through the trip device 17 to a
terminal 26.
The lower contact 21 is connected through the
lower contact arm 22 and a conducting strip 27 to a termi-
nal 29. With the circuit breaker 3 in the closed position,
an electrical circuit thus exists from the terminal 29
through the several items 27, 22, 21, l9, 20, 24, 25, to
the terminal 26.
The contact arm 20 is pivotally connected at
pivot pin 33 to a rotatable carriage 34 which is fixedly
secured to an insulating rotatable tie bar 35~ The car-
riage 34 includes a slot or pocket 37 in which an end
portion 39 of the arm 20 is mounted on the pivot pin 33.
The arm 20 and the carriage 34 rotate as a unit with the
~ie bar 35 during normal current conditions throu~h the
circuit breaker.
The single operating mechanism 11 is positioned
in the center pole unit of the three-pole circuit breaker
and is supported on and betwePn a pair of rigid support
plates 41 (one of which is shown) that are ixedly secured
in the base 7 in the center pole unit of the breaker. An
inverted U-shaped operating lever 43 is pivotally supported
on the spaced plates 41 with the ends of the legs of the
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lever positioned in U-shaped notches 45 of the plates. The
operating lever 43 includes a handle 47 of molded electri-
cally insulating material.
The contact arm 20 for the center pole unit is
operatively connected by means of a toggle comprising an
upper toggle linX 48 and lower toggle link 50 to a releas
able cradle member 51. ThP toggle links are pivotally
interconnected by means of a knee pivot pin 53. The lower
toggle link 50 is pivotally connected to the carriage 3~ o
the center pole unit by the pivot pin 33 and the upper
toggle link is pivotally connected to the releasable cradle
member 51 by a pivot pin 55. Overcenter opera~ing springs
57 are connected under tension between the pivot knee pin
~ 53 and the bight portion of the operating lever 43.
The contacts 19, 21 are manually opened by
movement ~f the handle 47 from the ON position (Figure 1~
to an OFF position to the right of that shown in Figure 1.
Movement o the handle 47 to the right (to the OFF posi-
tion) carries the line of action of the overcenter operat-
~0 ing springs 57 to the right, causing collapse of the toggle
links 48, 50 and to rotate the tie bar 35 in a clockwise
direction to simultaneously move the-contact arm 20 of the
three poLe units to the open position and thereby opening
the contacts of the three pole units. The contact arm 20
is then in the broken line position 20a (Figure 1).
The contacts are manually closed by reverse
movement o the handle to the left which movement moves the
line of action of the overcenter springs 57 to the let to
move the toggle links 48, 50 to the position shown in
Figure 1. This movement rotates the tie bar 35 in a
counterclockwise direction to move the contact arms 20 o~
the three pole units to the closed position.
The relèasable cradle member 51 is latched in the
position shown in Figure 1 by means of the latch mechanism
15 which is a lever actuated by the trip device 17. The
trip device 17 is capable of detecting both low level short
circuit or overload current conditions and hiqh level short
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clrcuit or fault current conditions. Upon the detec-tion of
any such condition the trip device 17 actuates the latch
mechanism to initiate the trip operation of the circuit
breaker mechanism 11.
The latch mechanism 15 (Fig. 2) comprises a
U-shaped moun~ing frame 61 having spaced legs 63, 65, a
latch lever 67, and a trip lever 69. Both levers 67, 69
are pivotally mounted on a pin 71 which is journaled in the
legs 63, 65. A spring 73 biases the latch lever 67 clock
wise against upper portions of the trip lever 69 which is
biased counterclockwise by a spring 75.
The latch lever 67 includes a surface 75 that
engages a notch surface 77 of the cradle member 51 when the
member is in the latched or untripped position (Figs. 1,
8). Because of the pressure applied to the circuit breaker
mechanism 11 by the springs 57, the cradle member 51
remains in the latched position with the surfaces 75, 77
engaged. The latched position of the raleasable member 51
is sustained by backup pressure applied by the upper end of
the trip lever 69 against the upper end of the latch lever
~7 which in turn is reinforced by a flange 79 which is held
in place against clockwise rotation about the pin 71 by a
d~tent 81 on a trip bar 83 as set forth hereinbelow.
S~lffice it to say, when the trip bar 83 is rotated clock-
2S wise through a small arc the pressure of the springs 57(Fig. 1) rotates the trip lever 69 clockwise to a broken
line position 79a, therehy releasing the surface 77 from
the surface 75 of the latch lever 67. Accordingly, the
cradle member 51 moves to the broken line position 79a
(Fig. 8) which permits the torsion spring 74 to return the
trip lever 69 as well as the latch lever 67 counterclock-
wise to their original positions.
After being tripped the circuit breaker mechanism
11 may be re~et to the untripped position by moYing the
handle 47 counterclockwise to position 47a and return the
surface 77 to a latched position under the surface 75 of
the latch lever 67 which in turn yields slightly clockwise
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ayainst the torsion spring 73 which in turn returns the
latch lever to the latched position.
The electromagnetic trip device 17 is contained
within in insulating box-like container 85 which is detach-
ably mounted within the circuit breaker 3. It contains acurrent transformer 87, for each pole unit, an electronic
circuit board 88, the trip bar 83, and an interlock assem-
bly 89 (Fig. ~) which includes a replaceable rating plug
interlock assembly 91, and a push-to-trip button 93. The
interlock assembly 89 is a replaceable rating plug which as
shown in Fig. 2, is detachably mounted for replacement by a
~imilar rating plug of a different ra~ing. Generally, the
rating plug includes a resistor 94 of a specific resistance
for a desired rating. The resistor 94 is connected between
connector pins 96 on the rating plug. When the plug is
inserted into the unit, connector pins 96 make contact with
matching receptacles in the circuit board ~, thereby
calibrating the trip unit to a particular rating.
When the circuit breaker is in the closed posi-
~0 tion and it is desired to manually trip the circuit break-
er, the trip button 93 is used. The trip button is seated
within the housing of the trip control assembly 89 and the
button includes an elongated shaft 95 (Figs. 4, 6) and an
enlarged end portion 97 fixed to the lower end of the
~S shaft. The shaft extends through a coil spring 99 in the
housing for returning the button to the retracted position
when it is released.
When the button 93 is depressed, the lower end
strik2s a projection 101 (Fig. 7) extending ra~ially from
the trip bar 83 and thereby rotates the trip bar clockwise
to the trip position by moving the detent 81 (Fig. 8) from
under the flange 79, thereby unlatching the cradle member
81 to open the contacts 19, 21.
When the trip button 93 is reLeased the coil
spring 99 returns the button to the retracted position
(Fig. 4) whereupon a torsion spring 103 (Fig. 2) rotates
the trip bar 83 counterclockwise to the untripped position.
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In that position the ~ircuit breaker may be reset by moving
the handle 47 (Fig. l) clockwise beyond the trip position
shown in Fig. 1 to relatch the cradle member as shown in
the solid line position of the member 51 in Fig. 8.
When it is necessary to replace the rating plug
interlock 105, the trip bar is turned to the trip position
(Fig. 6) so that the circuit breaker contacts 19, 21 cannot
be closed until a rating plug interlock is installed. For
that purpose the trip button 93 is rotated, such as by
ld inserting a screwdriver into a slot 107 in the top of the
button. As shown in Figs. 3-7 the trip button 93 functions
with a cam 109 which is rotatably mounted in a cam mounting
plate 111. The cam, includes a cam surface 113 and a bore
115. The bore has a non-circular cross-section which is
preferably rectangular and accommodates movement of the
enlarged end portion 97 having a similar and slightly
smaller cross-section. Thus the enlarged end portion 97 -is
slidable through the bore 115, such as when the trip button
93 is advanced to trip the trip bar 83 (Eig 7). When the
trip button 93 is ùsed for that purpose (to trip the trip
bar 83), the cam 109 is in the position shown in Figs. 4
and 7 with tha cam surface 113 out of contact with the
projection 101. When, however, the trip button 93 is
rotated the enlarged end portion 97, being within the cam
~5 bore 115, rotates the cam ùntil the cam surface 113 is in
the position shown in Fig. 6 with the lower end of the cam
in contact with the projection 101, thereby preventing
return of th~ trip bar 83 to the untripped position. As a
result the cradle member 51 cannot be reset and the con-
tact~ 19, 21 are in the open position.
With the cam 109 in the position shown in Fig. 6,
the cam bore 15 registers with a similar rectangular
opening 117 in the cam mounting plate 111, so that the
enlarged end portion 97 may be removed from the cam and
through the opening 117 when it is necessary to remove the
trip control assembly 89 for removal and replacement of the
associated rating plug interlock 91. The enlarged end
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portion 97 includes a pair of slmilar oppositely extending
shoulders 119. So long as the cam 109 is in the positions
shown in Figs. 4 and 7, the shoulders 119 are unaligned
with the opening 117 in the cam mounting plate 111 so that
the enlarged end portion 97 cannot be removed from the
position shown~
On the other hand, when the button 93 is turned
in the position shown in Fig. 6, the enlarged end portion
97 is aligned with the opening 117 (Fig. 5) and spring 99
causes the button to protrude above the surface of the
rating plug 89. With the button protruding a user can
grasp the button by means of a groove 118 to lift the
rating plug from the trip unit. When the button is rotated
to the position of Fig. 4, it does not protrude above the
lS rating plug surface and it is therefore impossible to grasp
the button and lift the trip unit from the rotating plug.
As shown in Figs. 3-7 the cam 109 includes a
peripheral flange 121 which is seated within a recess of
the cam mounting plate 111 where it is secured by a retain-
~O ing clip 123. A projection 125 (Figs. 3, 5) extends
outwardly from the flange 121 and is movable in a 90
arcuate portion 127 of the recess which arcuate portion
includes opposite end surfaces 129, 131.
Upon the occurrence of overlo~d current concli-
tions a magnetic trip actuator 133 (Figs. 2, 9, 10) auto-
matically unlatches the latch mechanism 15 to release the
cradle member 51. The actuator 133, being an electromag-
netic device, comprises an armature plunger 135 that is
maintained in the inoperative position (Eigs. 2, 10) by
magnetic means 137 (Fig. 1). The armature plunger 135
functions in conjunction with a lever 139 that is pivotally
mounted on a pivot pin 141 having opposite ends seated in
an associated frame member. A torsion spring 143 i5 also
mounted upon the pivot pin 141 for retracting the plunger
135 to the retracted position. The lever 139 includes a
flange 145. When the armature plunger 135 is actuated to
the extended position (Fig. 9), the lever 139 is rotated
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clockwise ~o cause the flange 145 to bear against a cam
sur~ace 147 on the end of ~he trip bar 83, thereby rotating
the bar against the pressure of the torsion spring 103
(Fig. 2) to trip the circuit breaker mechanism 11.
Upon the occurrence of an overload in any of ~he
pole units, the associated current transformer 87 senses
the overload and operates through the static circuit board
9~ (Fig. 2) to pulse the magnetic trip actuator 133 to
thereby orce the plunger 135 against the lever 139.
Subsequently, when the circuit breaker is reset
by moving the handle 47 (Fig. 1) clockwise from the of~
position to the reset position 47a, the lever 43 moves
against a link 151 which is mounted at the upper end of a
~ lever 153 (Fig. 2) the lower end of which is pivotally
mounted on the pivot pin 71. As a result (Fig. 9) the link
151 moves against the torsion spring 143 and movas it to
the position shown in Fig. 10 to cause the lever 139 to
orca the armature plunger 135 into its retracted position.
In conclusion, the circuit breaker of this
~0 invention provides a combined trip button and rating plug
interlock mechanism which operates to releasa or trip the
circuit breaker as necessary. The trip button and the
interlock comprise a detachable assembly whereby the rating
plug may be replaced as necessary by rotating the trip
~5 button through an associatad cam for holding the trip bar
in the trip position.
